Apparatus, method, and system for synchronization and a three-dimensional (3D) display apparatus using the same are provided. The 3D display apparatus includes: a power generator which generates power based on a received alternating current (AC) power signal, a detector which detects zero crossing points of time of the received AC power signal, and a controller which generates a reference signal based on the detected zero crossing points of time and transmits the reference signal to at least one other 3D display apparatus.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A three-dimensional (3D) display apparatus comprising: a power generator which generates power based on a received alternating current (AC) power signal; a detector which detects zero crossing points of time of the received AC power signal; and a controller which generates a reference signal based on the detected zero crossing points of time and transmits the reference signal to at least one other 3D display apparatus, wherein the zero crossing points of time of the received AC power signal are points of time at which the AC voltage is 0V at a moment when the AC voltage changes from positive (+) to negative (−) or from negative (−) to positive (+), and wherein the controller outputs an image based on the generated reference signal.
2. The 3D display apparatus as claimed in claim 1 , wherein the reference signal corresponds to at least some of the detected zero crossing points of time.
3. The 3D display apparatus as claimed in claim 1 , wherein the controller generates a sync signal for synchronizing a timing of opening and closing shutters of 3D eyeglasses based on the generated reference signal, and transmits the sync signal to the 3D eyeglasses.
4. The 3D display apparatus as claimed in claim 1 , wherein the reference signal is a signal for synchronizing a timing of outputting an image at the at least one other 3D display apparatus.
5. The 3D display apparatus as claimed in claim 1 , wherein the reference signal is a signal for synchronizing shutters of each pair of 3D eyeglasses operating in association with the at least one other 3D display apparatus.
6. A synchronization apparatus comprising: a power generator which generates power based on a received AC power signal; a detector which detects zero crossing points of time of the received AC power signal; and a controller which generates a reference signal for synchronizing timings of outputting images of a plurality of 3D display apparatuses based on the detected zero crossing points of time, and transmits the reference signal to the plurality of 3D display apparatuses, wherein the zero crossing points of time of the received AC power signal are points of time at which the AC voltage is 0V at a moment when the AC voltage changes from positive (+) to negative (−) or from negative (−) to positive (+), and wherein the controller outputs an image based on the generated reference signal.
7. The synchronization apparatus as claimed in claim 6 , wherein the reference signal corresponds to at least some of the detected zero crossing points of time.
8. The synchronization apparatus as claimed in claim 6 , further comprising a sync signal generator which generates a sync signal for synchronizing display timings of the plurality of 3D display apparatuses with timings of opening and closing shutters of a plurality of pairs of 3D eyeglasses, wherein the controller transmits the generated sync signal to each of the plurality of pairs of 3D eyeglasses.
9. A synchronization method, comprising: receiving an AC power signal; detecting zero crossing points of time of the AC power signal; generating a reference signal based on the detected zero crossing points of time; transmitting the reference signal to at least one display apparatus; and outputting an image based on the e generated reference signal, wherein the zero crossing points of time of the received AC power signal are points of time at which the AC voltage is 0V at a moment when the AC voltage changes from positive (+) to negative (−) or from negative (−) to positive (+).
10. The synchronization method as claimed in claim 9 , wherein the reference signal corresponds to at least some of the detected zero crossing points of time.
11. The synchronization method as claimed in claim 9 , wherein the reference signal is a signal for synchronizing a timing of outputting an image at the at least one 3D display apparatus.
12. The synchronization method as claimed in claim 9 , further comprising generating a sync signal for synchronizing a display timing of the at least one 3D display apparatus with a timing of opening and closing shutters of at least one pair of 3D eyeglasses operating in association with the at least one 3D display apparatus based on the reference signal, wherein the transmitting comprises transmitting the generated sync signal to the at least one pair of 3D eyeglasses.
13. The synchronization method as claimed in claim 12 , wherein the sync signal corresponds to at least some of the detected zero crossing points of time.
14. The synchronization method as claimed in claim 9 , wherein the generating the reference signal comprises a first display device generating the reference signal, and the method further comprises: a second display device receiving the reference signal from the first display device; and displaying a 3D image based on the received reference signal.
15. A synchronization system comprising: a first display apparatus which generates a reference signal based on zero crossing points of time of a received AC power signal, and transmits the generated reference signal to a second display apparatus; and the second display apparatus which receives the reference signal and displays an image based on the received reference signal, wherein the zero crossing points of time of the received AC power signal are points of time at which the AC voltage is 0V at a moment when the AC voltage changes from positive (+) to negative (−) or from negative (−) to positive (+).
16. The synchronization system as claimed in claim 15 , wherein the reference signal is a signal for synchronizing an image display timing of the first display apparatus with an image display timing of the second display apparatus.
17. The synchronization system as claimed in claim 15 , wherein the first display apparatus generates a sync signal for synchronizing timings of opening and closing shutters of at least one pair of 3D eyeglasses operating in association with one of the first display apparatus and the second display apparatus based on the reference signal, and transmits the sync signal to the at least one pair of 3D eyeglasses.
18. The synchronization system as claimed in claim 15 , wherein the second display apparatus generates a sync signal for synchronizing timings of opening and closing shutters of at least one pair of 3D eyeglasses operating in association with one of the first display apparatus and the second display apparatus based on the reference signal, and transmits the sync signal to the at least one pair of 3D eyeglasses.
19. The synchronization system as claimed in claim 15 , wherein the first display apparatus and the second display apparatus are display apparatuses to display a 3D image, wherein the image is a 3D image.
20. A synchronization system comprising: a synchronization apparatus comprising: a power generator which receives an alternating current (AC) power signal, a detector which detects zero crossing points of the AC power signal, and a controller which generates a reference signal corresponding to the detected zero crossing points; a first three-dimensional (3D) display device, comprising: a receiver which receives the reference signal, an image processor which outputs a processed image such that a timing of left-eye and right-eye portions of the output image correspond to the reference signal, wherein the zero crossing points of time of the received AC power signal are points of time at which the AC voltage is 0V at a moment when the AC voltage changes from positive (+) to negative (−) or from negative (−) to positive (+), and wherein the controller outputs an image based on the generated reference signal.
21. The synchronization system as claimed in claim 20 , further comprising: a second 3D display device comprising: the synchronization apparatus, an image processor which outputs a processed image such that a timing of left-eye and right-eye portions of the output image correspond to the reference signal, a sync signal generator which outputs a sync signal having a timing corresponding to the reference signal.
22. The synchronization system as claimed in claim 20 , wherein the synchronization apparatus further comprises a sync signal generator which outputs a sync signal having a timing corresponding to the reference signal.
23. The synchronization system as claimed in claim 20 , wherein the first 3D display device further comprises a sync signal generator which outputs a sync signal having a timing corresponding to the reference signal.
24. The synchronization system as claimed in claim 21 , further comprising a pair of 3D glasses which receive the sync signal and open and close shutters based on the sync signal.
25. The synchronization system as claimed in claim 22 , further comprising a pair of 3D glasses which receive the sync signal and open and close shutters based on the sync signal.
26. The synchronization system as claimed in claim 23 , further comprising a pair of 3D glasses which receive the sync signal and open and close shutters based on the sync signal.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
December 29, 2010
April 7, 2015
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